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Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics PDF Download

Q.1. A charge (- e) is placed in vacuum at the point (d ,0,0), where d > 0. The region x≤ 0 is filled uniformly with a metal. Find the electric field at the point Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

Thus resultant electric field at point P is
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics


Q.2. Consider an axially symmetric static charge distribution of the form,
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics 
Find the radial component of the dipole moment due to this charge distribution.

Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics


Q.3. Two charges q and 3q are placed along the x -axis in front of a grounded, infinite conducting plane, as shown in the figure. They are located respectively at a distance of 0.5 m and 1.5 m from the plane. Find the force acting on the charge q.
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

Using method of Images we can draw equivalent figure as shown below:
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics


Q.4. A point charge 2q is placed symmetrically at a distance d from two perpendicularly placed grounded conducting infinite plates as shown in the figure. Find the net force on the charge

Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics


Q.5. Let four point charges q, -q/2, q and -q/2 be placed at the vertices of a square of side 2a. Let another point charge -q be placed at the centre of the square (see the figure).
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

(a) Find the monopole moment.
(b) Find the dipole moment of this configuration.
(c) Let V(r ) be the electrostatic potential at a point P at a distance r>>a from the centre of the square. Then find V(3r)/V(2r).

(a) The monopole moment
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
(b) The dipole moment of this configuration is
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
(c)
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics


Q.6. A circular disc of radius a on the xy plane has a surface charge density

σ = σ0r cosθ. 

(a) Find the monopole moment.
(b) Find the dipole moment of this configuration.

(a) Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
(b) Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics


Q.7. A point charge q of mass m is released from rest at a distance d from an infinite grounded conducting plane (ignore gravity).
(a) If the particle reaches a speed u at a distance d/4 from the plane. At what distance from the plane will the particle reach the speed 2u ?
(b) If it takes time t to hit the plane, then what will be time taken by charge when it is released at a distance d/2.

Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

(a)Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

(b)

Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Put x = d sinθ ⇒ dx = 2d sinθ cosθ dθ
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

Time taken by charge when it is released at a distance d /2 is
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics


Q.8. Two point charges, 2q and -q are separated by a distance a, as shown in the figure.

Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics(a) Find the monopole moment.
(b) Find the dipole moment of this configuration.
(c) Find the approximate potential (in spherical coordinates) at large distance r.

(a) The monopole moment Q = 2q - q = q
(b) The dipole moment of this configuration is Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
(c) The approximate potential (in spherical coordinates) at large distance r is
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics


Q.9. Charges q, 2q and -3q are placed on the vertices of an equilateral triangle ABC of sides of length a, as shown in the figure. Find the dipole moment of this configuration of charges.
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

Let coordinates of A is (l, m), then
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics


Q.10. A point charge 2q of mass m is kept at a distance d below a grounded infinite conducting sheet which lies in the xy - plane. There are no charges present anywhere else.
(a) What is the magnitude of electric field at (0, 0, d) ?
(b) Find the work done in placing charge 2q at (0, 0, -d) ?
(c) For what value of d will the charge remains stationary?

(a) The magnitude of electric field at ( 0, 0, d ) is
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
(b) The work done in placing charge 2q at ( 0, 0, -d ) is
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics
(c) There is attractive force between point charge 2q and grounded conducting sheet that can be calculate from method of images i.e.
Multipole Expansion & Image Problem: Assignment | Electricity & Magnetism - Physics

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FAQs on Multipole Expansion & Image Problem: Assignment - Electricity & Magnetism - Physics

1. What is the multipole expansion in physics?
Ans. The multipole expansion is a mathematical technique used in physics to express a complex distribution of charges or currents in terms of simpler, idealized distributions called multipole moments. It allows us to approximate the behavior of a system by considering only the dominant terms in the expansion, making calculations more manageable.
2. How does the multipole expansion relate to the image problem?
Ans. The image problem is a concept in electromagnetism where a set of charges or currents is replaced by an equivalent system of charges or currents. The multipole expansion provides a way to describe the effects of these equivalent charges or currents in terms of multipole moments. By using the multipole expansion, we can effectively solve problems involving the image charges or currents and understand their impact on the system.
3. What are some applications of the multipole expansion in physics?
Ans. The multipole expansion has various applications in physics. Some examples include: - Electrostatics: It is used to calculate the potential and electric field due to a distribution of charges. - Magnetostatics: It helps in determining the magnetic field due to a distribution of currents. - Radiation: It is used to describe the radiation field produced by an accelerated charge. - Astrophysics: It helps in studying the gravitational field of celestial bodies.
4. How is the multipole expansion different from a Taylor series expansion?
Ans. The multipole expansion and Taylor series expansion are both mathematical techniques used to approximate functions. However, they are different in their approach and application: - The multipole expansion is specifically used to approximate the behavior of a distribution of charges or currents in physics. - The Taylor series expansion, on the other hand, is a more general mathematical tool used to approximate any function around a given point. - The multipole expansion involves a series of terms representing different orders of multipole moments, while the Taylor series expansion involves terms representing different powers of the variable. - The multipole expansion is typically used in problems involving spherical symmetry, while the Taylor series expansion can be applied to a wider range of functions and contexts.
5. Can the multipole expansion be used to solve real-life engineering problems?
Ans. Yes, the multipole expansion is widely used in engineering to solve various real-life problems. For example: - In electrical engineering, it is used to calculate the electric field and potential of complex charge distributions, which is crucial for designing and analyzing circuits. - In antenna design, the multipole expansion helps in understanding the radiation pattern and characteristics of antennas. - In computational fluid dynamics, the multipole expansion is used to approximate the flow field around objects, such as aircraft or vehicles. - In structural analysis, it can be used to model and analyze the stress and strain distribution in complex systems. Overall, the multipole expansion is a valuable tool in solving engineering problems that involve the behavior of charges, currents, or fields.
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